US2018236348A1PendingUtilityA1
Powered skateboard
Est. expiryNov 25, 2035(~9.4 yrs left)· nominal 20-yr term from priority
A63C 17/012B60Y 2200/91A63C 17/017B60Y 2200/112B60K 17/046A63C 2203/12A63C 17/12A63C 2203/22B60K 2007/0092A63C 17/015B62D 65/02B60K 2007/0038A63C 2203/42A63C 2203/24B60K 7/0007A63C 2203/14A63C 17/223G05D 1/0276A63C 2203/44B60Y 2200/81A63C 17/26B60K 1/04
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Claims
Abstract
A powered skateboard having a powered wheel. The powered wheel formed of a motor within tire of the wheel. The powered wheel fixed to a truck of the powered skateboard. The powered skateboard including at least one onboard battery to provide electrical power to the powered wheel.
Claims
exact text as granted — not AI-modifiedWhat is claimed is:
1 . A powered skateboard, comprising:
a skateboard deck having an internal cavity configured to store one or more electrical components; a skateboard truck disposed on a bottom portion of the skateboard deck; and a motorized wheel attached to the skateboard truck and controlled by the one or more electrical components stored in the skateboard deck, the motorized wheel configured to move the powered skateboard at variable speeds.
2 . The powered skateboard of claim 1 , wherein the one or more electrical components compose:
a battery for providing power to the motorized wheel; and a controller for controlling the variable speeds of the motorized wheel.
3 . The powered skateboard of claim 1 , wherein the motorized wheel comprises:
a hub motor having a stator potion disposed at a fixed position relative to an axle of the skateboard truck; a wheel portion configured to rotate about the stator portion; and a releasable retaining ring configured to secure the wheel portion onto the motorized wheel.
4 . The powered skateboard of claim 3 , wherein the powered skateboard further composes:
a motorized wheel adaptor configured to be disposed on the axle of the skateboard truck and to facilitate securing of the stator portion in fixed position onto the motorized wheel adaptor.
5 . The powered skateboard of claim 1 , wherein the motorized wheel comprises a planetary gear system.
6 . The powered skateboard of claim 1 , wherein the controller is configured to, at least, control the motorized wheel based on a control signal received through a transceiver.
7 . The powered skateboard of claim 2 , further comprising a motion sensor and wherein the controller is configured to, at least:
monitor an angle of elevation of a front portion of the skateboard deck relative to a rear portion of the skateboard deck; and change an operation of the motorized wheel based on the monitored angle of elevation.
8 . The powered skateboard of claim 7 , wherein changing the operation of the motorized wheel comprises:
decreasing or reversing a power output of the motorized wheel in response to a determination that the angle of elevation of the front portion of the skateboard deck relative to the rear portion of the skateboard deck has exceeded a threshold angle.
9 . The powered skateboard of claim 2 , further comprising a location sensor and wherein the controller is configured to, at least:
stop providing power to the motorized wheel in response to a determination that the powered skateboard is outside of an allowed geographical region.
10 . The powered skateboard of claim 2 , further comprising a location sensor and wherein the controller is configured to, at least:
limit an amount of power provided to the motorized wheel based on one or more conditions associated with a geographical region in which the powered skateboard is being operated.
11 . A method of making a powered skateboard, comprising:
providing a skateboard deck having an internal cavity configured to store one or more electrical components; attaching a skateboard truck to a bottom portion of the skateboard deck; and attaching a motorized wheel to the skateboard truck, the motorized wheel being controlled by the one or more electrical components stored in the skateboard deck and configured to move the powered skateboard at variable speeds.
12 . The method of claim 11 , wherein providing a skateboard having an internal cavity configured to store one or more electrical components, the electrical components comprises:
storing a battery in the internal cavity of the skateboard deck, the battery configured to provide power to the motorized wheel; and installing a controller in the internal cavity of the skateboard deck, the controller configured to control the variable speeds of the skateboard deck motorized wheel.
13 . The method of claim 11 , wherein the motorized wheel comprises:
a hub motor having a stator potion disposed at a fixed position relative to an axle of the skateboard truck; a wheel portion configured to rotate about the stator portion; and a releasable retaining ring configured to secure the wheel portion onto the motorized wheel.
14 . The method of claim 13 , wherein providing a skateboard deck further comprises:
installing a motorized wheel adaptor onto on an axle of the skateboard truck, the motorized wheel adapter configured to facilitate securing of the stator portion in fixed position onto the motorized wheel adaptor.
15 . The method of claim 11 , wherein the motorized wheel comprises a planetary gear system
16 . The method of claim 11 , wherein the controller is configured to, at least, control the motorized wheel based on a control signal received through a transceiver.
17 . The method of claim 12 , further comprising:
installing a motion sensor configured to monitor the motion of the powered skateboard, and wherein the controller is configured to, at least:
monitor an angle of elevation of a front portion of the skateboard deck relative to a rear portion of the skateboard deck; and
change an operation of the motorized wheel based on the monitored angle of elevation.
18 . The method of claim 17 , wherein changing the operation of the motorized wheel comprises:
decreasing or reversing a power output of the motorized wheel in response to a determination that the angle of elevation of the front portion of the skateboard deck relative to the rear portion of the skateboard deck has exceeded a threshold angle.
19 . The method of claim 12 , further comprising:
installing a location sensor and wherein the controller is configured to, at least stop providing power to the motorized wheel in response to a determination that the powered skateboard is outside of an allowed geographical region.
20 . The method of claim 12 , further comprising:
installing a location sensor and wherein the controller is configured to, at least: limit an amount of power provided to the motorized wheel based on one or more conditions associated with a geographical region in which the powered skateboard is being operated.Cited by (0)
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